Higher moments of entanglement entropy distribution in hybrid quantum circuits distinguish measurement-induced phases and are captured by a phenomenological model for area-law combined with directed polymer description for volume-law.
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Warm 85Rb vapor produces high-flux twin beams with 5.5 dB squeezing and individual photon-number squeezing via near-degenerate SFWM at 795 nm, with flat-topped temporal correlations.
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On the Entanglement Entropy Distribution of a Hybrid Quantum Circuit
Higher moments of entanglement entropy distribution in hybrid quantum circuits distinguish measurement-induced phases and are captured by a phenomenological model for area-law combined with directed polymer description for volume-law.
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High-flux sub-Poissonian twin-beam generation from warm atomic vapor
Warm 85Rb vapor produces high-flux twin beams with 5.5 dB squeezing and individual photon-number squeezing via near-degenerate SFWM at 795 nm, with flat-topped temporal correlations.